Patent application number | Description | Published |
20110172578 | PLANTAR FASCIITIS REHABILITATION CONTROLLING DEVICE - The present invention relates to a plantar fasciitis rehabilitation controlling device. It mainly comprises a securing portion, a rotatable portion, a torque pivoting portion, a pulling portion, and a controller. The securing portion and the rotatable portion are provided for securing a user's shank and foot. This torque pivoting portion can create a torque causing the rotatable portion moving back. The pulling portion has a controller so as to pull the rotatable portion to rotate between a first angle and a second angle so that it can reduce possibility of the plantar fasciitis and ease pain of the plantar fasciitis. Hence, this invention can achieve an active rehabilitation exercise. The belt's pulling interval time can be adjusted. It has a safety switch to ensure its product safety. It is convenient that the user can use a wireless device to operate this system. In addition, the user can be informed about current condition via an audio device. | 07-14-2011 |
20110172579 | INFLATION TYPE CERVICAL VERTEBRAE REHABILITATION DEVICE AND METHOD FOR USING THE SAME - An inflation type cervical vertebrae rehabilitation device includes at least one cervical vertebrae cell, a head cell connected to the at least one cervical vertebrae cell, an electric inflation portion and a control portion. The method includes a preparing step, a setting inflation processes step, an inflating step, and a completion step. One or more cervical vertebrae cells are inflatable and positioned between a support position and an operation position to support and rehabilitate the user's neck. The head cell is provided to support the user's head. So, the cervical vertebrae cells can support the user's head and neck with rehabilitation functions. The head cell is an auxiliary for support the user's head. It is easy to carry. This invention could be remote controlled. It contains the far infra-red heating function. In addition, there is a pose balance feature. | 07-14-2011 |
Patent application number | Description | Published |
20100149465 | ARRAY SUBSTRATE AND DISPLAY PANEL - A display panel includes a first substrate, a pixel array, a peripheral circuit, a first protection layer, a second protection layer, a display medium, and a second substrate. The first substrate array has a display area and a peripheral area, wherein the pixel array is disposed in the display area, the peripheral circuit is disposed in the peripheral area, and the pixel array and the peripheral circuit are electrically connected. The first protection layer is disposed on the display area and the peripheral area to cover the pixel array and the peripheral circuit. The second protection layer is at least disposed on the first protection layer within the peripheral area. Here, the second protection layer includes a color filter material layer, a black matrix material layer, a photo spacer material layer, or a combination thereof. The second substrate is disposed above the first substrate to expose the peripheral area. | 06-17-2010 |
20110080542 | ACTIVE DEVICE ARRAY SUBSTRATE AND DISPLAY PANEL - An active device array substrate including a substrate, an active device array, a black matrix, a color filter, at least a pad, and at least a contact window is provided. The substrate has a display region and a periphery circuit region. The pad is disposed in the display region or the periphery circuit region and is constituted by at least one of a first conductive layer and a second conductive layer. The contact window is disposed on the pad, through which a third conductive layer is connected to the pad. The contact window is surrounded by at least two different types of light-shielding patterns, wherein each light-shielding pattern surrounds only a part of the periphery of the contact window. The light-shielding patterns are selected form at least two of the black matrix, the color filter, the first conductive layer, and the second conductive layer. | 04-07-2011 |
20110304805 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel includes an active device array substrate, an opposite substrate, a sealant, a liquid crystal layer, a black matrix, and a plurality of rough structures. The active device array substrate has a display area and a peripheral area surrounding the display area, and the liquid crystal layer and the peripheral area are surrounded by the sealant. The black matrix is disposed between the active device array substrate and the opposite substrate and distributed corresponding to the display area and the peripheral area. The rough structures are disposed on a portion of the black matrix and distributed corresponding to the peripheral area. Surface roughness of the rough structures is greater than surface roughness of the black matrix distributed corresponding to the display area. | 12-15-2011 |
20120033114 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate including a substrate, multiple scan lines, multiple data lines, multiple of pixels are provided. The scan lines and the data lines are disposed on the substrate. Each pixel includes multiple sub-pixels including at least a transistor, a pixel electrode, and a color filter. The transistor is disposed on the substrate and electrically connected to the scan line and the data line correspondingly. A portion of the color filter is disposed between the pixel electrode and the corresponding scan line. The pixel electrode is coupled with the corresponding scan line to form a first capacitor. The drain of the transistor is coupled with the corresponding scan line to form a second capacitor. In a single pixel, the coupling areas of the pixel electrodes corresponding to various color filters with the corresponding scan lines are different, so that capacitance of the first capacitors are substantially the same. | 02-09-2012 |
20140071385 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel includes an active device array substrate, an opposite substrate, a sealant, a liquid crystal layer, a black matrix, and a plurality of rough structures. The active device array substrate has a display area and a peripheral area surrounding the display area, and the liquid crystal layer and the peripheral area are surrounded by the sealant. The black matrix is disposed between the active device array substrate and the opposite substrate and distributed corresponding to the display area and the peripheral area. The rough structures are disposed on a portion of the black matrix and distributed corresponding to the peripheral area. Surface roughness of the rough structures is greater than surface roughness of the black matrix distributed corresponding to the display area. | 03-13-2014 |
Patent application number | Description | Published |
20130320465 | THIN MEMS MICROPHONE MODULE - A MEMS microphone module includes a first circuit board and a second circuit board attached to the first circuit board. A MEMS chip and an ASIC chip are respectively received in one of two concavities of the first circuit board. A first ground layer of the first circuit board and a second ground layer of the second circuit board are electrically coupled to each other to define a ground shielding structure. By this way, an EMI shielding can be applied by the ground shielding structure to the MEMS chip and the ASIC chip. | 12-05-2013 |
20130322662 | MEMS MICROPHONE MODULE - A MEMS microphone module includes a substrate and a conducting lid covered on the substrate to define a chamber therebetween for accommodation of a MEMS chip and an ASIC chip. A ground layer of the substrate is electrically coupled to a protrusion of the conductive lid to form an EMI shielding structure. By this way, an EMI shielding effect can be applied by the EMI shielding structure to the MEMS chip and the ASIC chip. | 12-05-2013 |
20140233767 | CONDENSER MICROPHONE AND MANUFACTURING METHOD THEREOF - A condenser microphone comprises a substrate, a vibratile diaphragm and a back plate. The substrate has an opening. The diaphragm is disposed corresponding to the substrate and covers the opening, and has a plurality of protrusions. The back plate is coupled to the diaphragm and has a plurality of through holes, at least some of which are corresponding to the protrusions respectively. An interval is formed between the diaphragm and the back plate, and when the diaphragm vibrates, the protrusions move into or further near the through holes. | 08-21-2014 |
Patent application number | Description | Published |
20100086851 | POSITIVE ELECTRODE AND METHOD FOR MANUFACTURING THE SAME AND LITHIUM BATTERY UTILIZING THE SAME - Disclosed is a positive electrode applied in lithium battery and method for manufacturing the same. First, a lithium alloy oxide layer is formed on a substrate. Subsequently, an additional high density and low energy plasma treatment is processed, such that the lithium alloy oxide layer has a top surface composed of uniform, dense, and inter-necked nano grains, and the in-side/bottom grains of the oxide layer remain unchanged. According to experiments, the positive electrode with such properties has higher capacity and longer cycle lifetime, thereby improving the lithium battery performance. | 04-08-2010 |
20120129051 | POSITIVE ELECTRODE AND LITHIUM BATTERY UTILIZING THE SAME - Disclosed is a positive electrode applied in lithium battery and method for manufacturing the same. First, a lithium alloy oxide layer is formed on a substrate. Subsequently, an additional high density and low energy plasma treatment is processed, such that the lithium alloy oxide layer has a top surface composed of uniform, dense, and inter-necked nano grains, and the in-side/bottom grains of the oxide layer remain unchanged. According to experiments, the positive electrode with such properties has higher capacity and longer cycle lifetime, thereby improving the lithium battery performance. | 05-24-2012 |
20150062776 | SUPERCAPACITOR WITH A CORE-SHELL ELECTRODE - A supercapacitor includes a pair of electrodes and an electrolyte. Each electrode has a graphite fiber core, and an activated carbon shell atomically coated on an outer surface of the core. The electrolyte is mounted between the two electrodes and in touch with each shell for electrical connection of the two electrodes. | 03-05-2015 |
20150121671 | SUPER CAPACITOR STRUCTURE AND THE MANUFACTURE THEREOF - Disclosed is a super capacitor and method of manufacture thereof. This invention relates to a solid state super capacitor comprising a solid state polymer electrolyte and a modified carbonaceous electrode. Said modified carbonaceous electrode comprises a conductive carbonaceous material covered with active ingredients. Said modified carbonaceous electrode and said solid state polymer electrolyte are layered on top of each other to form a sandwich-like structure. Said super capacitor performs much better than known super capacitor comprising liquid or gel-form electrolytes. Said super capacitor has higher conductivity, therefore can be manufactured without a current collector. Since said super capacitor contains solid state polymer electrolyte, the method of manufacturing said super capacitor is more environmentally friendly and has a higher safety level. | 05-07-2015 |
Patent application number | Description | Published |
20100222926 | VIRTUAL WALL SYSTEM - A virtual wall system is composed of a mobile robotic device and at least one virtual wall generator. The mobile robotic device includes a steering unit for steering itself toward at least one direction, a steering control unit connected with the steering unit for controlling the steering of the steering unit, and at least one sonic receiver mounted to one side thereof for receiving sonic signals. The at least one virtual wall system generator is placed on a planar surface where the mobile robotic device moves, having a sonic emitter and a taper-shaped hole facing sidewards. The taper-shaped hole increasingly expands from inside out. The sonic emitter is to emit sonic signals that are directive subject to the taper-shaped hole. The at least one virtual wall system generator further includes a power module as power supply. | 09-02-2010 |
20120084935 | MOBILE ROBOTIC VACUUM CLEANER WITH A DETACHABLE ELECTRICAL FAN - A mobile robotic vacuum cleaner with a detachable electrical fan is disclosed to include a housing having a fan chamber, an electrical fan detachably mounted in the fan chamber, and a cover plate detachably fastened to the housing to hold down the electrical fan in the fan chamber. Subject to the use of the detachable cover plate to hold down the electrical fan in the fan chamber, the electrical fan can be installed in the fan chamber conveniently without any fastening members, such as screws, or the use of any hand tool, such as screwdriver and, after removal of the cover plate, the electrical fan can be removed from the housing easily. | 04-12-2012 |
20130269148 | DUAL-PURPOSE VACUUM CLEANER - A dual-purpose vacuum cleaner includes a self-walking carriage including three or more wheels, an accommodation chamber providing at least one bearing face, a roller brush, a dust guide, a passageway connected to the accommodation chamber and a plurality of first contacts disposed in the accommodation chamber, a hand-held vacuum cleaner detachably accommodated in the accommodation chamber and including at least one abutment face, a handle, a dust suction entrance attached to the passageway and a plurality of second contacts respectively physically kept in contact with the first contacts, and a cover covered on the self-walking carriage to conceal the hand-held vacuum cleaner in the self-walking carriage. | 10-17-2013 |
Patent application number | Description | Published |
20140070866 | MIXER AND ASSOCIATED SIGNAL CIRCUIT - A mixer for providing a mixed signal by mixing an input signal and an oscillation signal, comprising a follower and a switch. The follower is arranged to conduct a driving contribution from a bias terminal to an output terminal following a signal at an input terminal, wherein the input terminal and the bias terminal are respectively coupled to the input signal and the oscillation signal, and the output terminal is arranged to output the mixed signal. The switch is arranged to selectively conduct the output terminal to a reference level in response to alternating of the oscillation signal. An associated signal circuit is also disclosed. | 03-13-2014 |
20140070973 | SIGNAL MIXING CIRCUIT AND ASSOCIATED CONVERTER - A signal mixing circuit which mixes input signal(s) and oscillation signal(s) by mixer block(s) to provide a mixed signal. Each mixer block includes a summing node and a circuit unit; the summing node is arranged to provide a sum signal by summing an input signal and an oscillation signal, and the circuit unit is arranged to alternate between a first state and a second state in response to alternating of the oscillation signal; wherein the circuit unit is arranged to provide driving contribution to the mixed signal in response to the sum signal during the first state, and to stop providing driving contribution during the second state. An associated converter, e.g., a digital-to-analog converter, is also disclosed. | 03-13-2014 |
20140080437 | RECEIVER CIRCUIT AND ASSOCIATED METHOD - A receiver circuit, e.g., a low-IF receiver, including two mixing paths. The two mixing paths scale an input signal respectively by two mixing gains and shift phase of the input signal respectively by two mixing phase offsets to provide two mixed signals. The two mixing gains and the two mixing phase offsets are arranged to produce an amplitude adjustment between amplitudes of the two mixed signals and a phase difference of 90 degrees plus a phase adjustment between phases of the two mixed signals. With the amplitude adjustment and/or the phase adjustment properly tuned to nonzero value(s) in association with band-pass response of the receiver circuit, image rejection can be achieved and optimized. Associated method is also disclosed. | 03-20-2014 |
20150333623 | CHARGE PUMP WITH WIDE OPERATING RANGE - A charge pump at least includes a current source, a first switch, a second switch, a level-shift circuit, and a capacitor. The first switch is coupled between the current source and an internal node. The capacitor is coupled between the internal node and the level-shift circuit. The second switch is coupled between the internal node and an output node. The first switch performs a closing-and-opening operation and the level-shift circuit performs a level-shift operation while the second switch is kept open and the internal node is isolated from the output node. The operating range of the charge pump is effectively widened by using the proposed design. | 11-19-2015 |
20150346755 | SWITCHING CURRENT SOURCE CIRCUIT AND CONTROL METHOD THEREOF - A switching current source circuit is provided. A current source drains a bias current from a power supply via a first mirror transistor. A second mirror transistor has a source coupled to the power supply, a gate coupled to the gate of the first mirror transistor, and a drain for providing an output current. A switch is coupled between the gates of the first and second mirror transistors, and has a control terminal for receiving a control signal. A first capacitor is coupled between the gate of the second mirror transistor and the voltage generating unit. A second capacitor is coupled between the gate of the second mirror transistor and a ground. The voltage generating unit selectively provides a first voltage or a second voltage different from the first voltage to the first capacitor according to the control signal. | 12-03-2015 |
20160048145 | VOLTAGE GENERATING CIRCUIT AND POLAR TRANSMITTER - A voltage generating circuit comprising: an output current generating circuit, generating an output current, such that an output voltage is generated at an output terminal, according to an output voltage control signal; a comparing device, comprising a first input terminal receiving a reference voltage, a second input terminal receiving a feedback voltage related with the output voltage, and an output terminal outputting the output voltage control signal according to the reference voltage and the feedback voltage; an adjustable voltage dropping circuit, comprising a first terminal coupled to the second input terminal, and a second terminal coupled to the output terminal; and a current source, for generating a predetermined current to the first terminal of the adjustable voltage dropping circuit, thereby the feedback voltage is generated at the first terminal of the adjustable voltage dropping circuit. The predetermined current flows through the adjustable voltage dropping circuit to the output terminal. | 02-18-2016 |
Patent application number | Description | Published |
20150323909 | SERVO MOTOR DRIVE - A servo motor drive is connected with at least two servo motors and contains: a main control unit, a power unit, and at least one servo drive module. Each servo drive module includes a communication interface unit, an input/output unit, a microprocessing unit, a field-programmable gate array, a current control unit, and a switching unit. The communication interface unit is electrically connected between the main control unit and the microprocessing unit. The input/output unit is electrically connected between the main control unit and the field-programmable gate array. The field-programmable gate array converts data of the at least two servo motors into digital data. | 11-12-2015 |
20150367467 | SERVO-DRIVEN TOOL UNCLAMPING SYSTEM FOR A MACHINE TOOL - A servo-driven tool unclamping system for a machine tool contains: a tool changing unit, a tool unclamp unit, and a servo control unit. The tool changing unit includes a cam box, a first servo motor for driving the cam box, a driving shaft driven by the cam box, and a tool change arm driven by the driving shaft. The tool unclamp unit includes a spindle, a transmission assembly, and a second servo motor. The servo control unit includes a main controller, a first servo drive and a second servo drive both electrically connected with and controlled by the main controller. The first servo drive and the second servo drive are also electrically coupled with the first servo motor and the second servo motor and numerically control the tool changing unit and the tool unclamp unit, hence the tool change arm operates, and the spindle clamps and unclamps each tool. | 12-24-2015 |
Patent application number | Description | Published |
20100290470 | PACKET RECEIVING MANAGEMENT METHOD AND NETWORK CONTROL CIRCUIT WITH PACKET RECEIVING MANAGEMENT FUNCTIONALITY - A method of network packet receiving management includes: providing a buffer unit which includes a plurality of data blocks with a first packet number and a plurality of data blocks with a second number of packets, wherein the data blocks with the first packet number are for storing a plurality of first network packets according to a first array data structure, respectively, the first array data structure has a plurality of first packet descriptors corresponding to the first packet number, and the data blocks with the second number of packets do not correspond to any packet descriptor; and when a first data block corresponding to a first packet descriptor successively receives a first network packet, changing the first packet descriptor corresponding to the first data block to indicate a second data block which does not correspond to any packet descriptor. | 11-18-2010 |
20110122781 | NETWORK DEVICE AND CONTROL METHOD THEREOF - The present invention provides a network device and a control method thereof. The network device comprises: a receiver, a transmitter, a storage unit, and a processing unit. The storage unit is utilized for storing a software, and the processing unit is coupled to the receiver, the transmitter, and the storage unit, and utilized for reading the software from the storage unit and executing the software to execute following operations: calculating a first predetermined time and driving the transmitter to generate a network linking signal and output the network linking signal by the transmitter; polling a link status of the network device and a link partner to generate a first detecting result; and determining whether to power down the transmitter according to the first detecting result and the first predetermined time. | 05-26-2011 |
20140025921 | MEMORY CONTROL METHOD UTILIZING MAIN MEMORY FOR ADDRESS MAPPING AND RELATED MEMORY CONTROL CIRCUIT - A memory control method, including: writing a write-in data which has a logical address into a write-in cache buffer; generating a write-in address mapping table which maps the logical address of the data to a physical address of a main memory, and writing the write-in address mapping table into a cached data mapping table write buffer; writing the write-in data into the main memory according to the write-in address mapping table; and when an available storage space of the cached data mapping table write buffer is reduced to reach a predetermined threshold, writing the address mapping table in the cached data mapping table write buffer into the main memory, and storing a corresponding main memory write-in address mapping table into a global mapping table buffer. | 01-23-2014 |